EP0005101A1 - Regulation valve with automatic disconnection - Google Patents

Abstract

The invention relates to a pressure control valve prevailing in an enclosure (4) comprising a closure element (2) movable between a closed position and an open position, and means (22) for exerting a counter pressure on this element (2) in order to maintain it in its closed position when the pressure prevailing in the enclosure is less than a given pressure. The means (22) consists of a pneumatic cylinder which acts on the closure element by means of a connection comprising coupling means (30, 32, 34) capable of uncoupling the cylinder (22) from the shutter element (2) in the event of a rapid increase in the pressure prevailing in the enclosure (4). Application to the production of valves for regulating and limiting the pressure in a chamber to a given value.

Description

The present invention relates to an automatic trigger regulating valve, intended to regulate and limit to a given value the pressure prevailing inside a sealed enclosure.

More specifically, the invention relates to a valve of the type comprising a movable element which, intended to sealingly seal an opening provided in an enclosure by cooperating with a seat integral with the latter, is in contact by one of its faces with the fluid of the enclosure and subjected on its other face to the application of a force intended to balance a given pressure of the fluid corresponding to a threshold not to be exceeded.

It is specified that in such a valve the movable element for closing the enclosure is capable of moving when the pressure of the enclosure exceeds a predetermined threshold, from a first extreme position or low position for which it cooperates with the seat secured to the enclosure to a second extreme position or high position defined by a stop, position for which it is spaced from said seat.

Valves of the aforementioned type designed prior to the present invention have the disadvantage of not allowing a rapid rise of the movable element in the high position when the pressure inside the enclosure rises abruptly above the threshold , which leads to the possibility of the enclosure exploding.

In addition, they do not lend themselves to adjustment simple depending on the pressure you want to obtain in the enclosure.

The present invention specifically relates to a valve which overcomes the aforementioned drawbacks.

The automatic trigger regulating valve object of the invention, of the type comprising a movable closure element between a closed position in which it sealingly closes an opening provided in an enclosure and an open position in which it is distant from said opening, a means for exerting a back pressure on the obturation element in order to maintain it in its closed position when the pressure prevailing in the enclosure is less than a given pressure, is characterized in that said means consists of a pneumatic cylinder which acts on the closure element via a connection comprising coupling means capable of uncoupling the cylinder from the closure element in the event of a rapid increase in pressure reigning in the enclosure.

The valve as characterized above advantageously takes advantage of the use of a pneumatic cylinder, and of the coupling of the latter to the movable element of the valve by means of a mechanism allowing this to release the movable element for rapid variation of the difference between the pressures prevailing in the enclosure and in the jack respectively.

• - un contrôle des déplacements de l'élément mobile grâce à un réglage approprié à tout instant de la poussée qu'exerce le vérin sur ce dernier,
• - une montée rapide de l'élément mobile lors d'une élévation brutale de la pression de l'enceinte grâce au désaccouplement de l'élément mobile et du vérin qui constitue un ensemble ayant une inertie relativement importante,
• - d'adapter le déplacement de l'élément mobile à diverses vitesses de montée en pression de l'enceinte,
• - de maintenir si nécessaire l'enceinte dépressurisée.

Thus, it has the particular advantage of allowing:

• a control of the movements of the movable element by means of an appropriate adjustment at all times of the thrust exerted by the jack on the latter,
• a rapid rise of the mobile element during a sudden rise in the pressure of the enclosure thanks to the uncoupling of the mobile element and of the jack which constitutes an assembly having a relatively high inertia,
• - adapt the movement of the movable element to various rates of pressure build-up of the enclosure,
• - maintain the depressurized enclosure if necessary.

According to the invention, the jack comprises a rod of control, known as the first rod, extended by a sleeve in which one of the ends of a second rod is engaged, joined at its other end to the closure element, the coupling means comprising at least one ball housed in the wall of the sleeve and able to fit partially, under the action of a calibrated spring, into a groove formed in the second rod.

Furthermore, each of the balls is preferably in contact with a pusher guided in translation in a sheath secured to one of its ends of said sleeve and receiving at its other end a screw cooperating with a complementary thread provided in the sheath and said spring. is supported at one and the other of its ends on said pusher and on said screw.

According to an advantageous arrangement of the invention, the valve comprises a buffer tank connected on the one hand, by means of a valve, to the zone of the cylinder of said cylinder delimited by the face of the piston opposite the element of shutter and, on the other hand, to a compressed air supply system under a given pressure.

This arrangement allows, for an appropriate choice of the ratio of the respective volumes of the buffer tank and the aforementioned zone of the jack, an appropriate automatic adjustment of the thrust exerted by the jack.

According to another arrangement of the invention, the zones of the jack situated on either side of the piston are connected to a buffer tank by means of a valve intended to put each of the zones in communication with said tank or with the atmosphere, said buffer tank being connected to a compressed air supply system under a given pressure.

On the other hand, according to the invention in accordance with one of the abovementioned provisions, the zone of the cylinder of the jack delimited by the face of the piston opposite the closure element is connected to said buffer tank by means of a tap.

Thus, the adjustment of the thrust exerted by the Cylinder advantageously depends not only on the ratio of the volumes of the buffer tank and the cylinder, but also on the pressure drop established through the valve, the latter varying with the speed of the pressure build-up of the enclosure.

Other characteristics and advantages of the present invention will appear more clearly on reading the following description of an embodiment given by way of illustration but in no way limiting of a valve according to the invention.

This description will be made with reference to the appended single schematic figure in which a vertical embodiment of a valve according to the invention has been shown in vertical form.

It can be seen in FIG. 1 that the valve includes a valve 2 intended to seal a one-opening 6 formed in an enclosure 4 containing a fluid whose pressure must not exceed a predetermined threshold.

To this end, said valve 2 is capable of moving under the effect of the pressure of the fluid of the enclosure between a low position, for which it closes the opening 6 of the enclosure 4 by cooperating, via a seal 8, with a seat 10 carried by an annular piece 12 made integral with the enclosure 4, and a high position for which it is stopped by three stops such as 14.

More precisely, said valve 2 is fixed to one end of a rod 16, the other end of which is engaged in the recess 13 of a sleeve 18 secured to the control rod 20 of a pneumatic cylinder 22, the end of the rod 16 being made integral in translation with the sleeve 18 by disconnectable coupling means which will be described later.

Note in the attached figure that the pneumatic cylinder 22 is supported by a plate 24 mounted on three columns such as 26 and that each stop 14 is constituted by an annular threaded part intended for cooperate with a complementary thread provided on each column 26, the stop 14 being held in a position given by a nut 28. This arrangement makes it possible to easily adjust the position of each stop 14 and consequently the length of the maximum stroke of the valve 2.

The head 19 of the sleeve 18 is secured to the control rod 20 of the pneumatic cylinder 22 in the following manner: the head 19 has a threaded recess 19a cooperating with a complementary thread 20a provided on the end of the rod 20. This arrangement allows to adjust the distance between the plate 24 and the head 19 of the sleeve 18, this distance having to be equal to or greater than the maximum stroke of the valve 2. It goes without saying that the distance between the free end of the rod 16 and the bottom of the recess 13 is greater than the maximum stroke of the valve 2 as a function of the position of the stop 14.

Note that the disconnectable coupling means provided between the rod 16 and the sleeve 18 comprise three balls such as the ball 30, distributed at 120 ° around the axis of the sleeve 18. Each ball 30 is housed in the wall of the sleeve 18 and it is capable of being partially fitted, under the action of a calibrated spring 32, into a groove of complementary shape 34 provided in the rod 16.

More specifically, the calibrated spring 32 is supported at one of its ends on a plunger 35 in contact with the ball 30, this plunger being guided in translation in a sheath 36 secured to the sleeve 18. At its other end the spring 32 is supported on an adjustment screw 38 cooperating with an additional thread provided in the sheath 36, said screw 38 being blocked by a nut 40.

It can be seen in the appended figure that, according to one of the characteristics of the invention, the zones A and B of the jack 22 located on either side of the piston 22p are connected via the pipes 42a and 42b, d a valve 44 and a valve 45 to a buffer tank 46 supplied with compressed air under a determined pressure adjustable by a pressure reducer 48. The valve 44 allows communication each of zones A and B of the actuator with the reservoir 46 or the external atmosphere and the valve 45 makes it possible to adjust the pressure drop of the fluid flowing between the actuator and the reservoir 46.

Furthermore, it is noted in the figure that a protective bellows 42 is made integral with the plate 24 and the head 19 of the sleeve 18 and that a second protective bellows 42 'is made integral with the free end of the sleeve 18 and valve 2.

The operating mode of the valve shown in the appended figure is as follows.

Is initially established in the area A of the cylinder 22 a compressed air pressure such that the cylinder exerts on the valve 2 against pressure balancing a determined pressure of the fluid contained in the enclosure corresponding to a threshold not to be exceeded. The adjustment of this back pressure exerted by the jack determining the pressure threshold in the enclosure not to be exceeded is carried out by means of the pressure reducer 48.

The speed of increase of the pressure of the fluid contained in the enclosure is also regulated. Beyond which the coupling means provided between the rod 16 and the sleeve 18 must uncoupler the jack 22 from the valve 2. This adjustment is on the one hand, by restricting more or less the communication between the zone A of the jack and the reservoir 46 by means of the tap 45, so as to define between the latter a given pressure drop, on the other hand by compressing more or minus the balls 30 by means of the adjustment screws 38.

When the pressure in the enclosure is less than the threshold determined by the back pressure exerted on the valve 2 by the jack 22, the valve engages its seat 10 in a sealed manner.

When the pressure in the enclosure increases, the difference between the opposite forces exerted on the valve 2 by the jack 22 and by the fluid contained in the enclosure 4 decreases until it is canceled out when these forces are balance. When the pressure in the enclosure becomes greater than the pressure threshold determined beforehand by means of the pressure reducer 48, the valve lifts from its seat and thus ensures regulation.

When the pressure rise in the enclosure is slow, the opening of the valve is sufficient to stabilize or immediately lower the pressure in the enclosure, so that the force exerted on the valve 2 by the fluid contained in the enclosure remains close to the force exerted by the jack on the valve 2 through the balls 30 cooperating with the groove 34, this latter force itself increasing very little due to the weak influence of the pressure drop defined by the valve 45 when the displacement of the piston 22p in the cylinder of the jack is slow. As a result, the opposite forces exerted on the balls 30 are insufficient to urge them out of the groove 34 against the force exerted by the springs 32. The assembly constituted by the valve 2, the sleeve 18 and the control rod 20 is then raised to ensure regulation.

During a rapid increase in pressure in the enclosure, the opening of the valve is not sufficient to instantly reduce the pressure increase. The force exerted on the valve 2 by the fluid contained in the enclosure therefore causes a rapid displacement upward when considering the figure of the assembly constituted by the valve 2, the sleeve 18 and the control rod 20 which results in , due to the pressure drop defined by the valve 45, a sudden increase in the pressure prevailing in the zone A of the jack. The two opposite forces acting on the balls 30 therefore quickly become very large and urge them out of the groove 34 against the force exerted by the springs 32. The rod 16, integral with the valve 2, is then separated. of the rod 20 of the jack 22 and the valve 2 lifts quickly up to the stops 14 under the action of the pressure prevailing in the enclosure.

It is specified that the diameter of the valve 2 is determined as a function of the maximum pressure drop likely to settle through opening 6 for a type of reference accibedent that may occur in the enclosure.

• - soit de laisser le système en l'état, l'enceinte restant dépressurisée,
• - soit de resolidariser les tiges 16 et 20 en mettant successivement en communication avec le réservoir tampon les zones B et A du vérin afin d'abord de relever le manchon 18 et par suite de réintroduire les billes 30 dans leur gorge 34, puis d'abaisser la tige du vérin 20 pour assurer à nouveau l'obturation étanche de l'enceinte.

After a rapid pressure build-up in the enclosure, causing rods 16 and 20 to become detached, it is possible:

• - either leave the system as it is, the enclosure remaining depressurized,
• - Either to re-join the rods 16 and 20 by successively putting in communication with the buffer tank the zones B and A of the jack in order first to raise the sleeve 18 and consequently to reintroduce the balls 30 in their groove 34, then to lower the rod of the jack 20 to again ensure the tight sealing of the enclosure.

It should be noted that the sleeve 18 could be raised by providing additional air through the regulator 48. However, it should be noted that the fact of carrying out, as shown in the figure, the resolidarisation of the rods 16 and 20 to starting from the air contained in the buffer tank 46 generates a lowering of the pressure in the latter and in the zone A of the jack, which leads to a lowering of the pressure limit threshold not to be exceeded in the enclosure, this lowering going in the sense of security.

This possibility is particularly advantageous in all cases where an accident occurring in the enclosure risks simultaneously causing the complete destruction of the pneumatic and electrical installations. It is then necessary to provide either to act manually on the valve 44, or to control it mechanically by limit switches (not shown) coming into contact with the valve 2.

Claims (6)

1. Automatic trigger regulating valve comprising a shutter element movable between a closed position in which it seals an opening provided in an enclosure and an open position in which it is distant from said opening, a means for exerting a back pressure on the closure element in order to maintain it in its closed position when the pressure prevailing in the enclosure is less than a given pressure, characterized in that said means consists of a pneumatic cylinder which acts on the shutter element via a connection comprising coupling means capable of uncoupling the cylinder from the shutter element in the event of a rapid increase in the pressure prevailing in the enclosure. 2. Valve according to claim 1, characterized in that the actuator comprises a control rod, called first rod, extended by a sleeve in which engages one end of a second rod secured by its other end of the 'shutter element, the coupling means comprising at least one ball housed in the wall of the sleeve and able to fit partially, under the action of a calibrated spring, in a groove formed in the second rod. 3. Valve according to claim 2, characterized in that each of the balls is in contact with a pusher guided in translation in a sleeve integral with one of its ends of said sleeve and receiving at its other end a screw cooperating with a complementary thread provided in the sheath and in that said spring is supported at one and the other of its ends on said pusher and on said screw. 4. Valve according to any one of claims 1 to 3, characterized in that it comprises a buffer tank connected on the one hand, by means of a valve, to the zone of the cylinder of said cylinder delimited by the face of piston opposite the closure element and, on the other hand, a compressed air supply system under a given pressure. 5. Valve according to any one of claims 1 to 3, characterized in that the zones of the jack situated on either side of the piston are connected to a buffer tank by means of a valve intended to put in communication each of the zones with said tank or with the atmosphere, said buffer tank being connected to a system for supplying compressed air under a given pressure. 6. Valve according to any one of claims 4 and 5, characterized in that the region of the cylinder of the cylinder delimited by the face of the piston opposite to the closure element is connected to said buffer tank by means of a tap.

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